Effect of Culture Temperatures on the Initial Growth Performance of Seedlings Germinated from Cryostored Seeds of a Tropical Tree Parkia nitida Miq. (Fabaceae, Mimosoideae)

Seeds Pub Date : 2024-07-17 DOI:10.3390/seeds3030027
Tsuyoshi E. Maruyama, Momi Tsuruta, Tokunori Mori
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Abstract

Seedling growth is one of the most important stages for the establishment of natural and artificial regeneration. For the first time, the initial growth and biomass allocation of seedlings germinated from cryostored seeds of Parkia nitida were analyzed. P. nitida is an economically and ecologically important timber tree species distributed in Central and South America. Cryostored seeds germinated quickly after priming by scarifying a part of the seedcoat with emery paper, reaching a germination percentage of 94%. Thirteen weeks after germination, the seedlings grew to a height of 16.5 to 60.0 cm. The results of our study, under different day/night alternating culture temperatures, showed that culture temperature had a direct correlation with seedling growth, total biomass allocation, and biomass partitioning. The greatest growth (height, diameter, and number of node sections) and greatest biomass allocation (leaf, stem, and root weight) were recorded under alternating temperatures of 30/25 °C, and these decreased with decreasing culture temperatures to 25/20 °C and 20/15 °C. Shoot:Root (S:R) ratios also decreased with decreasing culture temperatures, but a statistically significant difference (p < 0.05) was only observed between 20/15 °C and 30/25 °C. However, significant differences were not observed in Photosynthetic:Non-photosynthetic organ ratios among the different alternating culture temperatures. This study provides fundamental information for the production of good-quality seedlings of the fast-growing tropical trees of the legume family.
培养温度对热带树种 Parkia nitida Miq.(豆科,含羞草属)
幼苗生长是建立自然和人工再生的最重要阶段之一。该研究首次分析了硝朴树低温贮藏种子萌发幼苗的初始生长和生物量分配情况。P. nitida 是一种重要的经济和生态用材树种,分布于中美洲和南美洲。低温贮藏的种子在用金刚砂纸刮去部分种皮后很快发芽,发芽率达到 94%。发芽 13 周后,幼苗长到 16.5 厘米至 60.0 厘米高。在不同的昼夜交替培养温度下,我们的研究结果表明,培养温度与幼苗生长、总生物量分配和生物量分配有直接关系。在 30/25 °C的交替温度下,幼苗的生长量(高度、直径和节数)和生物量分配(叶、茎和根的重量)最大,随着培养温度降低到 25/20 °C和 20/15 °C,幼苗的生长量和生物量分配有所减少。芽:根(S:R)比率也随着培养温度的降低而降低,但只有在 20/15 °C和 30/25 °C之间观察到显著差异(p < 0.05)。然而,在不同的交替培养温度下,光合与非光合器官比没有观察到明显差异。这项研究为生产豆科热带速生树种的优质幼苗提供了基本信息。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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